Structures by: Rieder M.
Total: 27
C21H28LaN3O8,11.75(H2O)
C21H28LaN3O8,11.75(H2O)
Metallomics (2017)
a=10.8019(16)Å b=11.2323(15)Å c=15.296(2)Å
α=73.963(6)° β=79.565(5)° γ=73.194(4)°
K.99 (Fe1.92 Al1.08) (Al1.05 Si2.71 O10) (O H F)
Al2.13FFe1.92HK0.99O11Si2.71
European Journal of Mineralogy (1,1989-) (1993) 5, 493-502
a=5.3655Å b=9.293Å c=10.198Å
α=90° β=100.47° γ=90°
K0.974 (Fe1.4 Li0.75 Al0.854) (Al0.96 Si3.04 O10) ((O H)0.94 F1.06)
Al1.814F1.06Fe1.4H0.94K0.974Li0.75O10.94Si3.04
European Journal of Mineralogy (1,1989-) (1993) 5, 493-502
a=5.309Å b=5.309Å c=29.818Å
α=90° β=90° γ=120°
Sn0.912 O2
O2Sn0.912
International Journal of Inorganic Materials (2000) 45, 155-157
a=4.7384Å b=4.7384Å c=3.1865Å
α=90° β=90° γ=90°
Pyrite
FeS2
International Journal of Coal Geology (2007) 71, 115-121
a=5.416Å b=5.416Å c=5.416Å
α=90° β=90° γ=90°
Marcasite
As0.4FeS1.6
International Journal of Coal Geology (2007) 71, 115-121
a=4.449Å b=5.432Å c=3.391Å
α=90° β=90° γ=90°
Pyrite
As0.026FeS1.974
International Journal of Coal Geology (2007) 71, 115-121
a=5.428Å b=5.428Å c=5.428Å
α=90° β=90° γ=90°
Pyrite
As0.54FeS1.46
International Journal of Coal Geology (2007) 71, 115-121
a=5.429Å b=5.429Å c=5.429Å
α=90° β=90° γ=90°
Marcasite
FeS2
International Journal of Coal Geology (2007) 71, 115-121
a=4.4446Å b=5.4246Å c=3.3864Å
α=90° β=90° γ=90°
Annite-(Cs)
AlCsFe3O12Si3
The Canadian Mineralogist (1998) 36, 755-761
a=5.4065Å b=9.3829Å c=10.7993Å
α=90° β=99.637° γ=90°
Zinnwaldite-2M1
Al1.79F0.91Fe1.334H1.09K0.978Li0.486O11.09Si3.11
European Journal of Mineralogy (1996) 8, 1241-1248
a=5.292Å b=9.187Å c=19.935Å
α=90° β=95.40° γ=90°
Ferriannite-(Cs)
Cs0.968Fe3.824H2O12Si3.124
European Journal of Mineralogy (1996) 8, 1265-1271
a=5.487Å b=9.506Å c=10.826Å
α=90° β=99.83° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.486Å b=9.506Å c=10.818Å
α=90° β=99.67° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.444Å b=9.439Å c=10.185Å
α=90° β=100.2° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.480Å b=9.498Å c=10.820Å
α=90° β=99.76° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.480Å b=9.500Å c=10.907Å
α=90° β=99.60° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.476Å b=9.502Å c=10.954Å
α=90° β=99.54° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.452Å b=9.448Å c=10.786Å
α=90° β=99.77° γ=90°
Mica
Fe4.07H2O12Rb0.99Si2.96
Physics and Chemistry of Minerals (2003) 30, 198-205
a=5.476Å b=9.493Å c=10.514Å
α=90° β=99.95° γ=90°
Mica
Fe4.07H2O12Rb0.99Si2.96
Physics and Chemistry of Minerals (2003) 30, 198-205
a=5.442Å b=9.435Å c=10.185Å
α=90° β=100.3° γ=90°
Mica
Fe4.07H2O12Rb0.99Si2.96
Physics and Chemistry of Minerals (2003) 30, 198-205
a=5.412Å b=9.392Å c=10.120Å
α=90° β=100.2° γ=90°
Mica
Fe4.07H2O12Rb0.99Si2.96
Physics and Chemistry of Minerals (2003) 30, 198-205
a=5.420Å b=9.383Å c=9.846Å
α=90° β=100.8° γ=90°
Mica
Fe4.07H2O12Rb0.99Si2.96
Physics and Chemistry of Minerals (2003) 30, 198-205
a=5.410Å b=9.325Å c=9.645Å
α=90° β=100.7° γ=90°
Kanonaite
Al1.14Mn0.86O5Si
American Mineralogist (1981) 66, 561-567
a=7.959Å b=8.047Å c=5.616Å
α=90° β=90° γ=90°
Protolithionite
Al1.49Ca0.01Cl0.03F0.99Fe2.02H0.98K0.92Li0.33Mg0.03Mn0.07Na0.09O10.98Rb0.01Si2.98
European Journal of Mineralogy (1993) 5, 493-502
a=5.3655Å b=9.293Å c=10.198Å
α=90° β=100.47° γ=90°
Protolithionite
Al1.71Ca0.01F1.06Fe1.59H0.94K0.92Li0.37Mn0.03Na0.03O10.94Rb0.04Si2.97
European Journal of Mineralogy (1993) 5, 493-502
a=5.309Å b=5.309Å c=29.818Å
α=90° β=90° γ=120°